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@ -7,6 +7,7 @@ import matplotlib.pyplot as plt
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from NN.model import *
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from PIL import Image
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import pygame
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from area.constants import GREY
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device = torch.device('cuda') if torch.cuda.is_available() else torch.device('cpu')
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@ -84,16 +85,22 @@ def load_image(image_path):
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testImage = testImage.unsqueeze(0)
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return testImage
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#display the image for prediction next to the field
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def display_image(screen, image_path, position):
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image = pygame.image.load(image_path)
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image = pygame.transform.scale(image, (250, 250))
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screen.blit(image, position)
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#display result of the guessed image (text under the image)
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def display_result(screen, position, predicted_class):
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font = pygame.font.Font(None, 30)
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displayed_text = font.render("The predicted image is: "+str(predicted_class), 1, (255,255,255))
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screen.blit(displayed_text, position)
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def clear_text_area(win, x, y, width, height, color=GREY):
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pygame.draw.rect(win, color, (x, y, width, height))
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pygame.display.update()
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def guess_image(model, image_tensor):
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with torch.no_grad():
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testOutput = model(image_tensor)
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source/__pycache__/genetic.cpython-311.pyc
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source/__pycache__/genetic.cpython-311.pyc
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source/__pycache__/main.cpython-311.pyc
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source/__pycache__/main.cpython-311.pyc
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@ -1,5 +1,6 @@
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from NN.neural_network import clear_text_area
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from crop_protection_product import CropProtectionProduct
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from area.constants import TILE_SIZE, DIRECTION_EAST, DIRECTION_SOUTH, DIRECTION_WEST, DIRECTION_NORTH
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from area.constants import TILE_SIZE, DIRECTION_EAST, DIRECTION_SOUTH, DIRECTION_WEST, DIRECTION_NORTH, WIDTH
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from area.field import fieldX, fieldY, tiles
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import pygame
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import time
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@ -38,16 +39,19 @@ class Tractor:
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self.image = pygame.image.load('resources/images/tractor_left.png').convert_alpha()
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def work_on_field(self, tile, ground, plant1):
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def work_on_field(self, screen, tile, ground, plant1):
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results = []
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if plant1 is None:
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tile.randomizeContent()
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# sprobuj zasadzic cos
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print("Tarctor planted something")
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results.append("Tarctor planted something")
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elif plant1.growth_level == 100:
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tile.plant = None
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ground.nutrients_level -= 40
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ground.water_level -= 40
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print("Tractor collected something")
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results.append("Tractor collected something")
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else:
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plant1.try_to_grow(50,50) #mozna dostosowac jeszcze
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ground.nutrients_level -= 11
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@ -61,6 +65,7 @@ class Tractor:
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elif plant1.plant_type == self.spinosad.plant_type:
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t = "Tractor used Spinosad"
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print(t)
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results.append(t)
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ground.pest = False
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if ground.weed:
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# traktor pozbywa się chwastow
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@ -71,13 +76,21 @@ class Tractor:
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elif plant1.plant_type == self.metazachlor.plant_type:
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t = "Tractor used Metazachlor"
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print(t)
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results.append(t)
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ground.weed = False
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if ground.water_level < plant1.water_requirements:
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ground.water_level += 20
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print("Tractor watered the plant")
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results.append("Tractor watered the plant")
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if ground.nutrients_level < plant1.nutrients_requirements:
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ground.nutrients_level += 20
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print("Tractor added some nutrients")
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results.append("Tractor added some nutrients")
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clear_text_area(screen, WIDTH-90, 100, 400, 100)
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for idx, result in enumerate(results):
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display_work_results(screen, result, (WIDTH-90, 100 + idx * 30))
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@ -156,6 +169,13 @@ def do_actions(tractor, WIN, move_list):
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tractor.rotate_to_left()
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tractor.draw_tractor(WIN)
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pygame.display.update()
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time.sleep(1)
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time.sleep(0.5)
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#displays results of the "work_on_field" function next to the field:
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def display_work_results(screen, text, position):
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font = pygame.font.Font(None, 30)
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displayed_text = font.render(text, 1, (255,255,255))
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screen.blit(displayed_text, position)
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pygame.display.update()
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125
source/main.py
125
source/main.py
@ -5,14 +5,14 @@ import pandas as pd
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import joblib
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from area.constants import WIDTH, HEIGHT, TILE_SIZE
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from area.field import drawWindow
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from area.tractor import Tractor, do_actions
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from area.tractor import Tractor, do_actions, display_work_results
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from area.field import tiles, fieldX, fieldY
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from area.field import get_tile_coordinates, get_tile_index
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from ground import Dirt
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from plant import Plant
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from bfs import graphsearch, Istate, succ
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from astar import a_star
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from NN.neural_network import load_model, load_image, guess_image, display_image, display_result
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from NN.neural_network import load_model, load_image, guess_image, display_image, display_result, clear_text_area
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from PIL import Image
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from genetic import genetic_algorithm
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@ -30,7 +30,25 @@ def main():
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window = drawWindow(WIN)
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pygame.display.update()
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#getting coordinates of our "goal tile":
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#Tractor initialization:
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tractor = Tractor(0*TILE_SIZE, 0*TILE_SIZE, 2, None, None)
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tractor.rect.x += fieldX
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tractor.rect.y += fieldY
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tractor.tractor_start = ((170, 100))
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istate = Istate(170, 100, 2) #initial state
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#main loop:
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while run:
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for event in pygame.event.get():
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if event.type == pygame.QUIT:
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run = False
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time.sleep(1)
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#getting coordinates of our "goal tile":
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tile_index = get_tile_index()
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tile_x, tile_y = get_tile_coordinates(tile_index)
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if tile_x is not None and tile_y is not None:
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@ -45,34 +63,20 @@ def main():
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pygame.display.flip()
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#graphsearch activation:
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istate = Istate(170, 100, 2) #initial state
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goaltest = []
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goaltest.append(tile_x) #final state (consists of x and y because direction doesnt matter)
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tractor.tractor_end = ((tile_x, tile_y))
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goaltest = [] #final state (consists of x and y because direction doesnt matter)
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goaltest.append(tile_x)
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goaltest.append(tile_y)
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goaltest[0] = tile_x
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goaltest[1]=tile_y
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tractor = Tractor(0*TILE_SIZE, 0*TILE_SIZE, 2, None, None)
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tractor.rect.x += fieldX
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tractor.rect.y += fieldY
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tractor.tractor_start = ((istate.get_x(), istate.get_y()))
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#tractor.tractor_start = ((istate.get_x(), istate.get_y(), istate.get_direction))
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tractor.tractor_end = ((goaltest[0], goaltest[1]))
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#moves = (graphsearch(istate, succ, goaltest, tractor))
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#moves = (graphsearch(istate, succ, goaltest, tractor)) #<-------BFS
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moves = (a_star(istate, succ, goaltest, tractor))
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print(moves)
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#main loop:
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while run:
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for event in pygame.event.get():
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if event.type == pygame.QUIT:
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run = False
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time.sleep(1)
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# movement based on route-planning (test):
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# movement based on route-planning:
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tractor.draw_tractor(WIN)
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time.sleep(1)
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@ -89,6 +93,7 @@ def main():
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image_tensor = load_image(image_path)
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prediction = guess_image(load_model(), image_tensor)
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clear_text_area(WIN, WIDTH - 50, 600, 400, 50)
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display_result(WIN, (WIDTH - 50 , 600), prediction) #display text under the photo
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pygame.display.update()
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print(f"The predicted image is: {prediction}")
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@ -102,7 +107,8 @@ def main():
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#getting the name and type of the recognized plant:
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p1.update_name(prediction)
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#decission tree test:
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#decission tree test:
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if d1.pest:
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pe = 1
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else:
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@ -131,19 +137,71 @@ def main():
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t3 = True
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t4 = False
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weather_n = random.randint(1, 4)
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if weather_n == 1:
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h1 = True
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h2 = False
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h3 = False
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h4 = False
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else:
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h1 = False
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if weather_n == 2:
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h2 = True
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h3 = False
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h4 = False
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else:
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h2 = False
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if weather_n == 3:
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h3 = True
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h4 = False
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else:
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h3 = False
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h4 = True
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season_n = random.randint(1,4)
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if season_n == 1:
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s1 = True
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s2 = False
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s3 = False
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s4 = False
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temp_n = random.randint(0,22)
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else:
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s1 = False
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if season_n == 2:
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s2 = True
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s3 = False
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s4 = False
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temp_n = random.randint(0,22)
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else:
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s2 = False
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if season_n == 3:
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s3 = True
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s4 = False
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temp_n = random.randint(20,39)
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else:
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s3 = False
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s4 = True
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temp_n = random.randint(-20, 10)
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anomaly_n = random.randint(1, 10)
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if anomaly_n == 1:
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a1 = True
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else:
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a1 = False
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dane = {
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'anomalies': [True],
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'temp': [17],
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'anomalies': [a1],
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'temp': [temp_n],
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'water': [d1.water_level],
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'nutri': [d1.nutrients_level],
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'pests': [pe],
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'weeds': [we],
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'ripeness': [p1.growth_level],
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'season_autumn': [True], 'season_spring': [False], 'season_summer': [False], 'season_winter': [False],
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'weather_heavyCloudy': [False], 'weather_partCloudy': [False], 'weather_precipitation': [False],
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'weather_sunny': [True],
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'season_autumn': [s1], 'season_spring': [s2], 'season_summer': [s3], 'season_winter': [s4],
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'weather_heavyCloudy': [h1], 'weather_partCloudy': [h2], 'weather_precipitation': [h3],
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'weather_sunny': [h4],
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'type_cereal': [t1], 'type_fruit': [t2], 'type_none': [t3], 'type_vegetable': [t4]
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}
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df = pd.DataFrame(dane)
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df.to_csv('model_data.csv', index=False)
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@ -154,8 +212,11 @@ def main():
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#work on field:
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if predykcje == 'work':
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tractor.work_on_field(goalTile, d1, p1)
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time.sleep(50)
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tractor.work_on_field(WIN, goalTile, d1, p1)
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#update the initial state for the next target:
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istate = Istate(tile_x, tile_y, tractor.direction)
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time.sleep(2)
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print("\n")
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